Post on 05-May-2018
SFSL Internship Exit Presentation
Emily Darchuk
https://ntrs.nasa.gov/search.jsp?R=20140010663 2018-06-16T17:59:14+00:00Z
Internship Outline
• 10 Week Internship to support the SFSL
ISS:• Develop a versatile dairy sauce that can become a base for multiple dairy‐based freeze dried food applications
• The complex must rehydrate easily in warm water and result in a creamy mouth feel• Final demonstration of the complex should be performed in at least 2 freeze dried products
AFT:• Conduct a literature review on the bioavailability of Vitamin A, K, B5, B6, B7, B9, B12, Potassium, Selenium, Zinc, Manganese, Copper, Iron
• Review current scientific literature on bioavailability of nutrients and how they are affected by form, ingredient interactions and processing conditions
• Characterize the conditions that reduce or improve bioavailability of nutrients for future food development
ISS Project Background
• A reformulation to reduce sodium has led to rehydration issues with cream of mushroom soup
• The cream base of the beef stroganoff had room for improvement
• Dairy based sauces are missing from the current menu
Project Timeline
PRODUCT OPTIMIZATION– 3 weeks
Micro Testing & Sensory Panel Analytical Testing & Documentation
FORMULA DEVELOPMENT‐ 3 weeks
Bench Top & Scaled Up Trials Tastings and Food Sessions
STARCH FUNCTIONALITY‐ 4 weeks
Literature Review Experimental Designs
Starch Functionality
• 25 starches were screened as a dairy based roux
• Rehydratability‐ NO Clumps!• Flavor• Color• Texture
Starch Functionality
• Focused initially on commercial ingredients then widened to industrial ingredients
• Ingredient interactions were also screened based on literature review learnings
• Impact of protein• Impact of form: solid brick vs powdered • Impact of hydrocolloids and dispersants
Starch Screening – Trial 1
• Initial screening of starches found at HEB
Starch Functionality Color Flavor Rehydration Texture Proceed AP FlourBread FlourTapioca StarchPotato FlourFlour + Whey ProteinGarbanzo Bean FlourCorn StarchPotato Starch
Starch Screening – Trial 2
• Screening of additional store purchased starches• Reduction of fat• Further understanding of native tapioca processing limitations >155 F= gelatinization
Starch Functionality Color Flavor Rehydration Texture Proceed Wondra ThickWondra ThinWondra RouxTapioca StarchWhite Rice FlourNational 465 ‐ Mod Corn
Tapioca >155 ̊̊F
Tapioca <155 ̊̊F
Starch Functionality Color Flavor Rehydration Texture Proceed Ultra Sperse M ‐ColdTapioca Starch ‐ BRM GrittyUltra Sperse M ‐ HotUltra Sperse 3Wondra Thin
Starch Screening – Trial 3
• Screening of commercial starches from Ingredion• Refinement of processing parameters and hydration rates• Food showing to gather feedback on next steps: Optimize with Ultra Sperse M
Starch Screening – Trial 4• Focused on one starch base: Ultra Sperse M ( Modified Corn Starch)• Investigated the impact of the addition of hydrocolloids• Investigated the feasibility and impact of pulverizing dry soup prior to packaging to reduce clumping
Starch Functionality Color Flavor Rehydration Texture Proceed Ultra Sperse M ‐ SkimUltra Sperse M ‐ MootopiaNovation 3600Ultra Sperse M ‐ MD2 MaltoUltra Sperse M ‐ CA1 MaltoUltra Sperse M ‐ HPMCUltra Sperse M ‐ CarrageenanUltra Sperse M ‐ XanthanUltra Sperse M ‐ GellanUltra Sperse M ‐ Cellulose
Starch Functionality: Overall findings
• Addition of protein did not positively impact hydratability• Impact of pulverization did not provide enough improvement to offset the added complexity and risk
• Addition of maltodextrin improved the overall texture and rehydratability of the sauce
• Of store purchased starches, tapioca is the best for this application although industrial starches are more robust and provide better texture
FORMULA DEVELOPMENT• Incorporated the dairy base into 3 freeze dried meals
• Cream of Mushroom Soup• Beef Stroganoff• Angel Hair Alfredo
Formula Development
https://twitter.com/Astro_Sabot
• Participated in Food Sessions, Bonus Sessions and Debriefs
• Flavor and texture profile of current ISS menu
• Hydration and serving constraints of Zero gravity
• Flavor profiles that the astronauts like• Opportunities to improve perceived flavor with low sodium items ( spice/pepper/ garlic)
Cream of Mushroom Soup Development Goals
• Increase flavor intensity without added sodium or replacers• Shift to a white pepper spice profile• Increase the mushroom intensity• Added mushroom concentrate for added umami without sodium
• Improve the texture • Increase rehydratability of the base• Investigate modifications of both form and formulation• Look to increase the viscosity enough to allow it to be spoonable out of an EDO vs. sipped through a straw
Soup Trial 1
Soup Viscosity
Increasing viscosity
Viscosity Data
24
16
6.5
0 5 10 15 20 25 30
SFSL LS Reform
Drinkable Reform
Spoonable Reform
Bostwick Data
Bostwick Data ( cm in 30 sec)
Cream of Mushroom Nutrition
Puréed Mushrooms‐ 36%Vegetable broth‐ 29%Skim milk – 14%Onions‐ 8%Butter‐ 6%Thickeners‐ 4%Mushroom Base‐ 2%Spices‐ 1%
ORIGINAL SFSL FORMULA REFORMULATION
Water– 53%Half & Half‐ 32%Mushroom‐ 6%Butter 3%Flour‐ 3%Mushroom Base‐ 3%
Cream of Mushroom Soup Next Steps
Task Accomplished OutstandingFormula DevelopmentNutrition Panel CreationScaled Up TrialDraft SpecificationSensory TestingFormula Optimization
Beef Stroganoff Development Goals
• Increase flavor intensity without added sodium or replacers• Shift to a more complex spice profile • Increase the dairy profile• Add mushroom concentrate for added umami without sodium
• Improve the texture and satiety• Increase rehydratability of the base• Look to improve the creamy texture of the sauce• Proof of process of dairy base for multiple formulations
Beef Stroganoff Nutrition
Beef– 26%Beef Broth ‐24%Kluski Noodles‐ 20%Onions‐ 12%Sliced Mushrooms‐ 7%Sour Cream‐5%Unbleached Flour‐ 3%Butter‐ 2%Oil and Spices‐ 1%• Salt• Black Pepper
Beef– 21%Beef Broth ‐3%Kluski Noodles‐ 22%Onions‐ 11%Sliced Mushrooms‐ 13%Light Sour Cream‐16%Skim‐ 8%Thickeners‐ 2%Butter‐ 2%Spices‐ 2%• Mustard• Dill• Black and White Pepper• Pear Vinegar• Liquid Aminos• Garlic
CURRENT SFSL FORMULA REFORMULATION
Sensory Results
•35 gram sample hydrated w/ 75ml 150°F +/‐ 5 °F
• Sensory score 6.03• SD 1.86 • n=29
Panelist Feed Back
• Beef Texture• 45% of panelists disliked the tough beef texture and issues with meat hydration
• Cream Sauce• Sauce texture and ratio was well received • Sour Intensity seemed just about right – 66%• Creaminess seemed just about right – 79%
• Seasoning• Seasoning was well received• If changes are made increase intensity keeping similar profile
JAR Scores‐ n= 29
0
5
10
15
20
25
Not At All Not Enough Just About Right Somewhat Too Much Too
JAR Scores: Sour Cream Intesnity and Creaminess
Sour Cream Intensity Creaminess
Task Accomplished OutstandingFormula DevelopmentNutrition Panel CreationScaled Up TrialDraft SpecificationSensory TestingFormula Optimization
Beef Stroganoff Next Steps
AFT Project Background
• Longer duration missions will require more nutrient dense foods
• Research conducted to optimize the bioavailability of foods to provide more efficient nutrition to future crews
Literature Review: Vitamin A, K, B9
* Disruption of the food matrix* Fortification with synthetic vitamins* Reduction of oxidation* Mild cooking * Fat can help increase absorption ( A&K)
* Excessive heat treatments*Low Aw
Increases B
ioavailability
Decreases Bioavailability
Literature Review: Zinc /Copper/ Iron/ Manganese
* Staggered supplementation* pH control* Reduction of anti‐nutrient factors ( phytates/phenols)* Synthetic / animal sources* Fortification with yeast
* High doses* Cooking in water* Fortification of multiple minerals at one meal * Plant sources* Produce grown in unfertile soilsIn
creases B
ioavailability
Decreases Bioavailability
Overall recommendations to improve the nutrient density of flight food
• Identify specific meals for fortification of nutrients that benefit from the same processing parameters but do not compete for absorption
• Improve packaging to reduce oxidation risk• Puree foods and minimize heat treatments• Aim to provide more fortified foods• Source produce from growing regions that produce nutrient rich foods
In Summary….